Method of curing meat and the like



Patented Sept. 15, 1936' UNITED STATES 7 METHOD or oonmo MEAT AND LIKE Enoch L. Grlflith, Chicago, lll.,- assignor to Tho Griflith Laboratories, Inc., Chicago, 111., a corporation of Illinois 1 No Drawing.

Application September 5, 1935, Serial No. 39,259

12 Claims.- ((193-159) The present invention relates to curing salt for treating meat and the like, to the process of ouring such material, and to methods of making suchsalt. 7

Since ancient times sodium chloride has been used as a meat preservative. Long ago it became known that nitrate of sodium or potassium in addition to salt, was beneficial. In particular the mixture reddened the meat and'its color and appearance was better. It then became known that nitrate alone was of value individually in improving the color and appearance of meat. Subsequently it was discovered that the effectiveness of nitrate was'due to nitrate being changed to nitrite, and it was also learned that the nitrite itself was changed into nitrous acid, which is the efiective agent in producing a red color by union with hemoglobin of blood to form what is termed NO- hemoglobin.

It therefore became a practice to 'use both nitrate and nitrite with or without sodium chloride. For many years these combinations were produced by mixing the ground crystals of the respective salts. Such combinations have two types of disadvantages. The first is in respect to the constancy or uniformity of composition in a mechanical mixture. The second is in respect to the action of the mixture in the dry salt process of curing. These disadvantages are of great importance in commerce in the curing salt, and in the packing industry in curing meats.

The use of nitrates and nitrites in curing meats is regulated by law in most civilized states because of physiological detriment from intentional or accidental use of an excess. The nitrite is the one most particularly objected to, and in some countries its use is prohibited. In the United States, as in other countries, much discredit has been thrown upon mechanical mixtures of any of the suitable salts of chloride, nitrate, and nitrite. However uniformly the separate ingredients may be mixed by mechanical means, the subsequent disturbance of the mixture (as in handling, packing, shipping, etc.) causes a separation or concentration of one or more ingredients. Thus a bulk mass of the mixture remote in time or space from the mixing mill, may exhibit a non-homogeneous composition, one particular disadvantage being that it is possible innocently to use amixture exceeding the legal limits for nitrate or ni- Excess of nitrite has been a particular ground Ulobjection.

The foregoing changes in composition also give the packer trouble, because the curing salt, for

example from the top of a barrel, is different 5 from the curing salt at the bottom oia barrel, and the packers process or product from the respective portions of the, barrel may be difierent, whether he uses the salt in a wet pickle or in a dry pickle.

The second disadvantage lies in the action oi the curing salt on the meat. The individual salt components have diflerent speeds of penetration and different efiects on the color and form. of the tissues. Sodium chloride is relatively slow in its 15 progress into meatand the like. Nitrate is faster, but nitrite is still very much faster. Where these salts or any two of them, are together asseparate A crystals on a meat surface, it follows that from each crystal the salt moves at different speeds into the meat. These salts on entering the meat have different effects on the tissues of the meat. Nitrite in particular opens the pores oi the meat to permit exudation of the spoilable'juices in the meat, and to promote entry of nitrite. This release of meat fluids must not be so fast that it washes away the dry salt on the surface. It is therefore important where nitrite is used to minimize its sole effect with resulting quick penetration, and action on the meat. The nitrate alone has a constricting efiect on the pores of the meat, and therefore its sole eflect is not particularly objected to. By combining the two a control of penetration may be efiected, where absence of nitrite alone is maintained.

The present invention aims to overcome or minimize these disadvantages in a practical way.

One object of the invention is to provide a salt mass or curing unit in which there are on the average no individual grains or particles of the 0 mass which are nitrite crystals or particles.

Another object of the invention is to provide a salt mass or curing unit in which, on the average, the grains or particles are each a complex grain containing both nitrate and nitrite.

Still another object of the invention is to provide a salt mass in which, on the average the grains or particles are each a complex grain containing sodium chloride, a nitrite and a nitrate, and which may have sodium chloride in predominant quantity, andnitrite predominating over nitrate.

A further object of the invention is the provision of a salt mass in which the average particle 66 is a grain of sodium chloride within which is housed the nitrate and the nitrite.

Another object of the invention is the use of a product made by fusing and chilling the desired ingredients.

Still another object is the treatment of meat in a dry curing process by use of a salt mass sub- Various other and ancillary objects and advantages of the invention will be apparent from the following description and explanation of the various phases of the invention.

In carrying out the dry salt process of curing meats it is the aim to avoid the action generally or locally of nitrite undiluted with nitrate. To accomplish this it is of course necessary to employ grains or particles which contain both soluble nitrite and soluble nitrate. It is immaterial to the action of the nitrate or nitrite, what metal is employed in the nitrate and nitrite salt, but it is most common to use sodium or potassium. It is therefore not intended herein to limit the invention to sodium and potassium.

Broadly the processes comprise forming a liquid in which the nitrate salt and the nitrite salt are homogeneously distributed, with or without the presence of other ingredients, such as sodium chloride, or water. Such liquid is then suitably treated to convert it into a solid form of a composition containing both the nitrate and nitrite. In one process the nitrate and nitrite are present in a fused mass, which may or may not contain other material dissolved in the fusion such as sodium chloride. The melt is then fixed, by allowing it to solidify in such a way as to prevent crystallization. This may be done by cooling it quickly for the purpose. Cooling may be effected by converting the smelt in a thin layer, spray or film, which forms cool quickly and provide the solid homogeneous form.

The second and preferred process is one in which the liquid form is in water solution containing the nitrate and nitrite, with or without other substance such as sodium chloride. The liquid is then fixed in much the same way as the melt, by converting it into a thin layer, spray or film, while hot, under conditions which quickly evaporate the water and fix the solids without separation by fractional crystallization.

In the fusion process the chilled product may be coarse, or even a solid cake, requiring subsequent grinding to make a powder form. The fused mass or powder from the fused mass is slow to dissolve as is customary withchilled fused salts. Aside from the problems of making the fused form, the product of the fusion process is less satisfactory than the product of the evaporation process, for many reasons appearing hereinafter.

Where the product results from quick evaporation, the product is a fluffy powder which easily dissolves. Its softness, fine grain and quick solubility make it more satisfactory as a curing salt. Where there is about or more ofv sodium chloride in the solids of the aqueous solution, the product of evaporation exhibits the advantageous effect that a jacket of sodium chloace-seas ride houses the mixed nitrate and nitrite. Such a salt form provides the assurance that in curing meat with it, the nitrite and nitrate never contact the meat without the presence of sodium chloride.

One effect of strong nitrite on the meat is known as burning, and one effect of strong nitrate is a bitterness in the meat. Where nitrite and nitrate are used together in the forms of this invention the bitterness from nitrate is not found,

this reason also, the evaporation process is preferred in making the curing unit. By it, the content of sodium chloride can more easily be made high, than by use of the fusion process.

In the fusion process, the temperature must be increased as the sodium chloride content is raised, and at practical operating temperatures it is not The greater the content of sodium chloride, the more eifectivc is the diluent. For

possible to include any large quantity of sodium 30 chloride.

It is therefore a feature of the invention that where a high content of sodium chloride is desimd in the curing unit the evaporative process is preferred, and that where no, or a low, content of sodium chloride is desired in the curing unit, the fusion process is preferred.

The evaporation process The details of this process are more particularly described and claimed in my copending application Serial No. 723,266, filed April 30, 1934, which is a continuation in part of my application Serial No. 671,644, filed May 18, 1933, which process is a development under the U. S. Seifert Patent No. 1,950,459, issued March 13, 1934. A strong solution containing sodium chloride, sodium or potassium nitrate, and sodium or potassium nitrite, is splashed or otherwise spread into a thin film on a heated revolving roll at a high temperature, such as C. to C. This quickly evaporates the water leaving a line soft powder-of apparently non-crystalline form, which falls from the roll, or which may be scraped off with a cold blade. Under the microscope the particles are seen to be crystalline with heart-like centers. Under polarized light in a microscope it is manifest that the heart-like centers are the united nitrite and nitrate and the jacket is largely sodium chloride. By X-ray analysis it has been determined that the lattice of the sodium chloride may contain nitrite, nitrate, and potassium.

Experience has shown that when the dissolved salts of the solution contain about 80% or over of sodium chloride, all the 20%, which may in clude the nitrite and nitrate, is included in a sodium chloride jacket. Where less than 80% of sodium chloride is employed it is increasingly diflicult to secure 100% inclusion (meaning that 100% of the original non-sodium chloride components is housed inside of a crystal of sodium chloride jacket). The non-included nitrite-nitrate appears by X-ray analysis to be the same united form as the heart-like centers of united nitrite and nitrate. Using from 70% to 80% sodium chloride experience has shown that the inclusion is about 70% to 80% Where 100% inclusion is readily obtainable there is no necessity to add a binding agent, but where it is difficult to obtain 100% inclusion a binding agent may be present in the solution to be dried, such as starch,-gum, gelatin and like colloidal matter. This aids in uniting into one particle all the material, especially causing the part which is with difllculty to be included, to be bound to the other material.

The binding material is to be distinguished from a hygroscopic substance disclosed in said prior application Serial No. 123,226. j Therein it is described that the crystal jackets of sodium chloride as made are unstable and contain included water which is released on aging of the crystals. The use of a hygroscopic agent in the original solution provides an insulating substancebetween the ultimate grains, which absorbs the released. water and avoids caking of the grains. Where corn sugar as a hygroscopic agent isemployed it is found that a slight acidity develops in the mass, through some uncertain reaction. The slight acidity is effective to release a small amount of nitrous acid, and after a time, this can be detected by its. odor. The nitrous acid formed is changed on long standing to nitrate. The moisture held by the hygroscopic agent serves to retain nitrous acid in solution in the powder mass. This acidity is readily avoided by incorporating an alkaline buffer agent, such as disodium phosphate, or sodium bicarbonate, in small amount (about 1/7th the amount of hygroscopic agent used). This assures a hydrogen ion concentration not under pH 7 and preferably above it. The manner of accomplishing this is described and claimed in the copending application of Hall, Serial No. 83,703, filed June 5,1936.

As an example of a solution which may be evaporated into a salt mass the following is given:

' Parts Sodium chloride 88 Sodium nitrite 10 Sodium nitrate 2 to 2 Other material 2 The other material may be omitted, or it may be the hygroscopic agent or hinder, as above described.

Another example is:

, Parts Sodium chloride 90 sodium nitrite 6 Sodium nitrate 4 (1% to 2% of hygroscopic agent may be added) Still another example is: f

. Parts Sodium chloride 80 Sodium'nitrite 12 Sodium nitrate 8 (1% to 2% hygroscopic agent may be added) The fusion process The nitrite and nitrate are intimately associ- 1 ated in the molten state rather than in the solu- -melting points as follows:

at. about 230 C. 1 this concentration may be used to receive. gradution state. In the absence of reducing agents, particularly metals or organic matter, fused sodium or potassium nitrate at low temperatures is stable, and with reducing agents it breaks down into nitrites. Nitrites of sodium or potassium also may be fused and are fairly stable. It has been demonstrated that a given mixture of nitrite and nitrate can be repeatedly fused and chilled, say for about six times, with exposure to air while fused, with the result that nitrite decreases and nitrate increases. The salts have reported I Degrees centigrade Potassium nitrate 337 Potassium nitrite 297 Sodium nitrate 308 Sodium nitrite 271 It is of course well known that mixtures of pure substances may melt lower than each==pure substance alone, and will melt lower than the highest melting point. Consequently mixtures of nitrite and nitrate of the alkali metals sodium and potassium.melt at temperatures lower than the melting. point of the nitrate. Accordingly there is little danger of decomposition of the nitrate when making mixtures of nitrite and nitrate, if reducing agents are avoided, and little .nitrite to nitrate. This action renders the composition variable and not subject to accurate control. Likewise, the tendency for sodium chloride to crystallize out is great, and a homogeneous productis not assured on quick cooling of the fused melt. However, at lower temperatures where nitrite and nitrate predominate, the fused mass will dissolve a moderate amount of sodium chloride. As much as approximately of the final mass may be sodium chloride, where 60% of the solvent mass is sodium nitrite and 40% of the solvent mass is sodium nitrate, and the temperatureis 270 C.

The fused mixture is of course agitated or stirred so that it is uniform in composition, limiting the exposure to air to avoid change in composition. While the fused mass is in its homogeneous fused state it is fixed by quick cooling to the setting point. It may be converted into a spray, thin layer, film, or other form with high' specific surface to effect the necessary quick cooling. It may be poured upon a cooler surface to form a solid mass before fractional crystallization takes place. The mass when cold may be ground to a powder.

In carrying out the fusion process the nitrite and nitrate (preferably of sodium) may be mixed and then heated. As soon as some portion of a lower melting point than the highest melting constituents and the fused mass will then dissolve additional material. Where the preferred proportion of 60% sodium nitrite and 40% sodium nitrate is used the mixture has a melting point A batch of. fused mixture at the mixture melts the melted portion will have ally, mixed salts in the same proportion and the temperature of the mass kept low and near its melting point. A part of this may be then chilled by pouring it onto a cool surface, such as an iron plate, and a part may be preserved in fused form to receive additional mixed salts in the same proportion. This practice facilitates transmission of heat to the mixed solid salts, and is economical of heat in the process. Where different proportions of 'mixed 'nitrites and nitrates, with or without sodium chloride are used, the same procedure may be adopted. Where sodium chloride is to be' added, it is preferred to melt the mass containing the nitrite and nitrate, and then sprinkle in the sodium chloride with stirring.

The use of'sodium salts of both nitrate and nitrite is not so advantageous as the use of different metal bases for the two salts. Where there are two metal bases in the fusion the melting point is lower, as illustrated by the following examples:

Begins to melt at 126 C. and is completely liquid and transparent at 156 C.

Case C Percent Potassium nitrite 60 Sodium nitrate 40 Begins to fuse at 139 C. and is completely liquid and transparent at 172 C.

It is believed that the difference in temperature from the beginning of liquefaction to the final complete melting is due to a shift of the ions of sodium, potassium, nitrite and nitrate to an equilibrium condition for the prevailing temperature of the mass. It is only a matter of routine experiment to test the entire range ofcomposition of the materials in cases A, B and C to select that composition which has the lowest melting point, where it is desired to be most economical in the use of heat. Any of these compositions may be altered by various proportions of sodium chloride in order to determine the lowest temperature possible and the composition of a mixture of sodium chloride, nitrite and nitrate with the proper choice of sodium, potassium, or even other metals as metal bases for the nitrite and nitrate.

If desired the ingredients to be fused, such as 3 parts of sodium nitrite and 2 parts of sodium nitrate, may be first dissolved in water. It may be evaporated in. open pan or on the heated rolls above described. The product may then be fused,

and while molten may be poured in a thin film on a cold surface.

Another product which is similar in function for curing meat by the method of this invention is described in my application Serial No. 751,887, filed November 7, 1934. The product consists of sodium chloride crystals carrying a coating of aosgaac the hot rolls above described. Agitation of a mass of crystals in this process is preferred. The product may be used for many of the advantages here described. Pertinent to the curing process of this invention is the presence of nitrite and nitrate united by fusion, and the absence of nitrite undiluted with nitrate, with or without the nitrate undiluted by nitrite. The crystals of sodium chloride may be jacketed forms of curins salt as made by the evaporative process. The centers may be nitrite and nitrate, or may be nitrate alone, but should not be nitrite alone. The nitrite is too powerful in its effect on the meat, if it exists undiluted, for the purposes of this invention.

. The product By either procem there is obtained a srain or particle which includes nitrite and nitrate together. The product is normally used in curing meat in small proportion to meat, with sodium chloride in larger proportion. The combined nitrite and nitrate are ordinarily used in amounts of about oz. to lbs. of meat. This small amount cannot easily be applied to meat and it is diluted with about 3 lbs. of salt which also aids in the curing process. By the evaporative process using sodium chloride the active curing agent (nitrite-nitrate) is provided in the form of microscopic units within the tiny sodium chloride grains of the product. The fusion product on the other hand must be provided in ground form and must be mixed in the ordinary practice with common salt in the proportion of oz. of fused product to 3 lbs. of sodium chloride. This product provides a mechanical mixture of two different types or forms of grains, whereas the product of the evaporative'process employing salt when mixed with sodium chloride provides a mixture of essentially sodium chloride grains. The preferred practice according to this invention is to provide salt grains which contain in 2 to 4 oz. thereof, about $4; oz. of nitrite-nitrate combination. This product provides for more readily manipulating the small quantity of nitrite-nitrate in weighing, handling and mixing as compared to the same operations employing the 5 oz. of fused product when the mass is mixed with the 3 lbs. of salt. In the evaporation process the first dilution with sodium chloride and the fine grain structure are automatically provided in the process, and to produce the same result employing the fusion process, the fused product must be ground and then diluted with salt by mechanical mixing, thereby providing an unsafe mechanical mixture which is avoided by the preferred use of the evaporative process employing sodium chloride.

The curing process In order to give an example of curing meat, for example hams, the following ingredients are set forth for use with six 16 lb. hams (7 kilo-hams);

- Grams Sodium chloride 1688 -Sugar 100 Sodium nitrite 10 Sodium nitrate 2 to 2% By the evaporative process the formula may be: Grams Sodium chloride 1600 Sugar.-. 100 Salt mass 100 I comprising:

- Percent Sodium chloride 88 Sodium nitrite 10 Sodium nitra I 2 By the fusion process, the formula may be:

Grams u Sodium ohlm'idp 1688 Sugar Salt mass 12 comprising: m Percent Sodium nitrite 83.3 Sodium nitrates 16.7

Another example employing the preferred proportion of 60% nitrite and 40% nitrate is:

' Grams Sodium chloride 2080 Sugar (optional) Potassium or sodium nitrite 12 Sodium nitr 8 In accordance with this invention the nitrite and nitrate are combined by the evaporative process, with or without salt, or by the fusion process.

By the fusion process, the formula will duplicate that immediately above given when no sodium chloride is used in the fusion.

In using any of the compositions above described on meats, the mass must not be in admixture with individual grains of nitrite, because the strong eifect of such nitrite would be secured uncompromised by the combination with it of nitrate. It is essential to-the process that substantially all of the nitrite be in a combination with nitrate. For example, in the preservation of hams,- the composition containing the salt mass is rubbed onto the surface of the hams. The hams may be laid on a shelf or floor or closely packed. Again on the third day the composition is again rubbed into the ham and it is allowed to rest. This is repeated every three days, when on the 18th day the hams may be placed in a stockinette and smoked, as for example in a field starting at 110 F. and increasing to F. in 48 hours; Thereafter it is hung for 21 days for completion of the process, without refrigeration, and without danger of spoiling in warm climates or warm places. For other meats and for other 5 conditions for hams, the method of application may be varied, and the composition may be varied by those skilled in the art, without departing from the spirit and scope of the invention.

The composition set forth for hams is particularly designed to give a time-controlled process of treatment, to give a uniform continuous action from the inception in the distribution of salts in the ham, and to give a rapid and uniform entry of the composition ingredients into the ham. The composition is further designed to permit .entry of the composition into the ham and to permit at the same time a limited exudation of the spoilable juices of the ham. One effect of the combined nitrite and nitrate salts in the curing of meats is the compromising of the tendencies toward constriction and dilation of the capillaries of the meat. By reason of the powdery composition chosen for hams, the action of the composition is such as to give quick and uniform penetration and distribution throughout the entire ham. The resulting ham is uniformly impregnated, and has a greater quantity of its natural sweetness and natural flavors, owing to the fact that it is not immersed in an aqueous bath.

In each case where meat is cured by the present invention there is absence of pure nitrite units or nitrite units which do not also contain nitrate units. The nitrite alone works too fast on the meat, dilating the capillaries to disadvantage. The nitrate has a constricting effect on the capillaries. By causing the two to act together a control of penetration is effected. The speed features of nitrite, andthe slow features of nitrate are utilized and compromised. The nitrite and the nitrate act diiferently in coloring the meat. Where these are separate in the composition the coloring effect is not uniform, but where'they are used together, uniformity results. I

The salt mass is a perfect curing unit, and in its preferred form having a high sodium chloride content, as well as in any form having nitrite,- nitrate andsodiumchloride, it contains in one unit or grain, all the curing substances. In the preferred form it may be made to contain all the curing substances in the required proportion for direct application to the meat. Use of the prod'uctassures a safe, fast cure. The meat is sweeter than where nitrite is used'undlluted with nitrate. There is no burning" from direct action of nitrite. The meat does not exhibit the bitterness which is caused by the action of nitrate alone, or nitrate undiluted with nitrite. There is a lasting bloomon the lean of the meats, and a uniform coloration throughout. It gives to the dry curing process the distinctive advantages of the wet curing process, and eliminates the loss of flavor which ordinarily goes into a wet pickle. The salt mass is distinct from nitrate and from nitrite- It is not nitrate, and it is not nitrite, and it is not like a mechanical mixture ofnitrate and nitrite. The salt mass in fact is a wet pickle, fixed by the process into a dry solid form. The mass of particles is homogeneous in composition. The product of the evaporative process is light, soft and flaky, not visibly crystalline, and dissolves like snow. It lacks the sizable rocky grains of the ground and mechanically mixed crystalline salts .of sodium chloride, nitriteand nitrate, and the rocky form of the fused product, 75

Relation of the processes and products Per cent Sodium nitrite 60 Sodium nitrate Sodium chloride absent or one containing 28% of dissolved Per cent Potassium nitrite Sodium nitrate '40 Sodium chloride absent is spread into a thin layer on a heated surface or roll at about C. to C., the mass loses water and is removed therefrom in a fused cake form as distinguished from crystals obtained by evaporating a solution. On the roll it is visibly fused and of syrupy consistency, and where it is scraped off with a knife (which is of course cold) it forms a solid amorphous cake of the combined nitrite and nitrate. One of the remarkable points about the evaporative process is that it permits of a low fusion point for a mixture containing nitrite and nitrate, which is many degrees below the fusion point of mixed dry salts of nitrite and nitrate.

The difference is perhaps explainable by some role performed by the water in the original so-.

lution. At the high temperature of the roll or surface, it is perhaps possible that residual water enters as one component in a fusion comprising water, nitrite and nitrate. It is also possible that some transient or permanent combination between two or three of these ingredients has a low melting point or functions to lower the melting point of the whole. It is not to be assumed that the above suggestions commit the applicant to any particular theory. The facts are that fusion has been observed at this unexpected low temperature.

The above described fusion process resulting from evaporating a solution in thin film upon a heated surface, especially in roll form, is not as desirable as that modification of the process which consists in adding sodium chloride to the solution. The caky form of the product without sodium chloride is not commercially comparable as a curing salt to the granular form containing sodium chloride.

When a large amount of sodium chloride is also present in the solution which contains the nitrite and nitrate, the process is effective to prevent the nitrite-nitrate combination forming a cake. Rather, it effects breaking up the nitrite-nitrate combination into tiny particles or globules which are surrounded with a mass of sodium chloride in a crystal form.

It is possible that the fusion mass of nitrite-nitrate is present as a dispersion in a supersaturated solution of sodium chloride, causing the sodium chloride to crystallize about the dispersed bodies as nuclei for crystallization. This theory howof this invention there is provided a combination of nitrite and nitrate, and a wet and a dry process of unitingnitrite and nitrate by fusion.

From the foregoing description and explanation it can readily be appreciated that the invention can be practiced within a wide range of compositionsand materials without departing from the spirit and scope of the appended claims.

The present application is a continuation in part of my prior application Serial No. 671,644, filed May 18, 1933, and a continuation in part of my prior applications Serial No. 723,226, filed April 30, 1934, Serial No. 750,708, filed October 30, 1984, and Serial No. 751,887, filed November '7, 1934.. It is also related to 'SerialNo. 39,528, filed September 5, 1935. The above mentioned applications disclose methods of making the product here used, the product, and the method of curing with the product. Said applications are fused together, eachdiluting the other.

2. The method of curing meats and like solids which comprises treating the surface thereof with a powder mass which is substantially lacking in individual grains of nitrite salt and of nitrate salt, and which contains grains including in each grain predetermined proportions of nitrite salt and nitrate salt fused together, each diluting the other.

I gether, each diluting the other in predetermined proportions.

4. The method of curing meats ,and like solids which comprises treating the surface thereof with a powder which is substantially lacking in individual grains of nitrite salt and of nitrate salt,

and which comprises grains of sugar and grains Y including in each grain predetermined proportions of nitrite salt and of nitrate salt fused together, each diluting the other.

5. The method of curing meatsand like solids which comprises treating the surface thereof with a powder which is substantially lacking in individual grains of nitrite salt and of nitrate salt, and which comprises grains of sugar, grains of sodium chloride, and grains including in each grain predetermined proportions of nitrite salt and of nitrate salt fused together, each diluting the other.

6. The method of curing meats and like solids which comprises treating the surface thereof with a powder which is substantially lacking in individual grains of nitrite salt and of nitrate salt, and which comprises grains of sugar and grains including in each grain nitrate salt, nitrite salt,

and sodium chloride, the nitrite and nitrate being fused together, each diluting the other. I

7. The method of curing meats and like solids which comprises treatingv the surface thereof with a powder which is substantially lacking in in? dividual grains of nitrite salt and of nitrate salt, and whichcomprises grains of sugar, grains of sodium chloride, and grains including in each grain nitrite salt, nitrate salt, and sodium chloride, the nitrite and nitrate being fused together, each diluting the other.

8. The method of curing meats and like solids which comprises treating the surface thereof with a powder which is substantially lacking in individual grains of nitrite salt and of nitrate salt and which comprises sodium chloride, and grains including in each grain predetermined proportions of nitrite salt and of nitrate salt fused together, each diluting the other.

i 9. The method of curing meats and like solids which comprises treating the surface thereof with a powder which is substantially lacking inin dividual grains of nitrite salt and of nitrate salt and which comprises sodium chloride, and grains including in each grain nitrite salt, nitrate salt, and sodium chloride, the nitrite and. nitrate being fused together, each diluting the other.

10. The method of curing meats and like solids which comprises treating the surface thereof with a powder mass which is substantially lacking in individual grains including nitrite salt undiluted by nitrate salt, said mass comprising essentially grains including predetermined proportions of nitrite salt and nitrate salt fused together, each diluting the other.

11. The method of curing meats and like solids which comprises treating the surface thereof with a powder mass which is lacking in grains the out side of which contain nitrite capable of direct contact with the meat, said mass including grains consisting of sodium chloride in a jacket form housing heart-like centers of nitrite and nitrate combined by fusion, each diluting the other, whereby curing effects from nitrite and nitrate take place jointly and in the presence of sodium chloride.

12. The method of curing meats and like solids which comprises treating the surface thereof with a powder mass which is lacking in grains the outside of which contain meat-curing salt selected from nitrites and nitrates capable of direct contact with the meat, said mass including grains consisting of sodium chloride in a jacket form housing heart-like centers of nitrite and nitrate combined by fusion, each diluting. the other, whereby curing effects from nitrite and nitrate take place jointly and in the presence of sodium chloride.

ENOCH L. GRIFFITH. 

